2. proprietary name Ambu bag
hand-held device used to provide positive pressure
ventilation
Use of the BVM to ventilate a patient is frequently
called "bagging the patient”
4. Method of operation
Ensure that the mask portion of the BVM is properly
sealed around the patient's face
The BVM directs the gas inside it via a one-
way valve when compressed by a rescuer; the gas is
then delivered through a mask and into the patient's
trachea, bronchus and into the lungs
Squeezing the bag once every 3 seconds for an infant
or child provides an adequate respiratory rate (20 per
minute in a child or infant)
5. risk of over-inflating the lungs pressure damage to
the lungs and can cause air to enter the stomach,
causing gastric distension difficult to inflate the
lungs
6. OXYGEN RESERVIOR
Small corrugated ,tube like structure usually made of plastic.
Has 2 open ends
One end is connected to air inlet of ambu bag, other end should
be left open.
USES:
Increase the FiO2 of the oxygen delivered to the patient by
ambu bag from 40% to more than 90%.
7. OXYGEN MASK
Usually made up of plastic or rubber.
TYPES:
Uncushioned
Cushioned
ADVANTAGES(of cushioned mask)
The mask conforms to the face
Requires less pressure to obtain air tight seal
Less chances of damage to eyes or other structures of the face
9. CHOOSING THE CORRECT SIZE OF THE MASK:
The mask is of right size if it covers the nose and mouth
including the tip of the chin but not the eyes.
10. OXYGEN HOOD
Plastic hood that can be placed over an infant’s head
It has an inlet which can be connected to the oxygen source
Front portion is chiselled such that it lies over infant’s neck
while allowing easy access.
Used to administer humified oxygen to infant in all
conditions associated with hypoxia
11.
12. ADVANTAGES:
non invasive
Allows humidification of oxygen
DISADVANTAGES:
Oxygen flow may be insufficient in cases where respiratory drive
is poor
Any change in the position of the hood may result in oxygen
leaking outside the hood thus decreasing oxygen concentration
Oral feeding is difficult
Poorly tolerated leading to excessive crying or struggling by the
child
13. NASAL OXYGEN CATHETER
Suitable for direct administration of oxygen via
nasopharyngeal route
Soft and smooth open distal end facilitates non-
traumatic insertion
16. Step1:Shake the inhaler Step 4: Continue breathing in slowly and
well. steadily until the lungs are full.
Step 2: Breathe out gently, place the
Step 5: Hold your breath
mouthpiece in the mouth with lips curled
for 10 seconds or for as
around it.
long as comfortable.
Breathe out slowly.
Step 3: Begin breathing in slowly but at
the same time, press down on the inhaler
canister.
MDI
19. Rotahaler
Step 1: Insert a rotacap, transparent end
first, into the raised square hole of the
rotahaler
Step 2: Rotate the base of the Rotahaler
in order to separate the two halves of the
rotacap.
Step 3: Breathe in as deeply as you can*.
Hold your breath for 10 seconds. Breathe
out slowly.
*Note: If you are breathing correctly, you
will hear the soft rattling sound of the
rotacap.
22. How to use the Spacer
[Less cordination required]
Step 1: Assemble your Spacer by fitting Step 4: Release a dose
the two parts together of medicine into the
Spacer and breathe in
steadily and deeply through
your mouth.
Step 2: Shake the Inhaler. Fill the inhaler
into the slot opposite the mouthpiece.
Step 5: Remove the Spacer
and hold your breath for
as long as comfortable
. Breathe out slowly
Step 3: Close your lips firmly around the
mouthpiece. Zerostat Spacer
23. Nebulizer
MDI Rotahaler Nebulizer
•Drug •Powder in a •Drug driven by
micronized capsule compressed
And under •Pt effort is air/oxygen
pressure •Required to •Motorized
•Sprayed draw the •Less pt effort
into the drug and •Emergencies
mouth inhale •Expensive
•Then
pt.inhales
25. Spacers are bottle-shaped plastic devices which have a
mouth piece at one end and other end has an opening
which the MDI can be attached.
26. DISADVANTAGE OF MDI
Requires perfect co-ordination between inspiration
and activation of device.
Not possible in small children
To eliminate this problem spacer is adviced.
27. How to use MDI with spacer
device
Remove the cap of MDI shake it and insert in to spacer
device.
Place mouth piece of spacer in mouth or attach to face
mask in case of infants and younger children
Start breathing in and out gently and observe
movements of valve.
30. Nebulizers are devices which are useful in delivering
aerosolized drugs
USED IN - acute severe episodes of asthma,
bronchiolitis or status asthmaticus.
Helpful when when inspiratory effort is weak as in
case of infants
31. How to use nebulizer?
Connect nebulizer to mains
Connect output of compressor to nebulizer chamber
by the tubings provided with nebulizer
Put measured amount of drug in the nebulizer
chamber and normal saline to make it 2.5-3ml
32. Switch on the compressor and look for aerosol coming
out from other end of nebulizer
Attach facemask to this end of nebulizer chamber and
fit it to cover nose and mouth of child
Encourage child to take tidal breathing with open
mouth
33. Drugs which can be delivered to
lungs by nebulizer
Beta -2 agonist – salbutamol
Inhaled anticholinergics- Ipratropium Bromide
Inhaled steroids- Budesonide
Inhaled racemic epinephrine – in case of bronchiolytis
Inhaled chromolyn sodium- for maintanance therapy
of asthma.
34. The commonly used nebulizer solution of salbutamol
contains 5mg of salbutamol per ml of solution.
The dosage of salbutamol is 0.15mg/kg/dose
Amount should be diluted with about 2-3ml of normal
saline before nebulization.
35. ADVANTAGES
INCREASED EFFICENCY AND DECREASED SIDE
EFFECTS.
MDI-rarely deliver the full amount of inhailed
medicines to the lung (majority get deposited in
oropharynx)
45. PROCEDURE :
• Lateral recumbent position.
• A line connecting the posterior
superior iliac crest = L4 spinous
process.
Spinal needles entering the
subarachnoid space at this point are
well below the termination of the
spinal cord.
46. • LP in older children may be
performed from L2-L3
interspace to the L5-S1
interspace.
• At birth, the cord ends at the
level of L3.
• LP in infant may be
performed at the L4-L5 or L5-
S1 interspace.
47. Position the patient:
Lateral decubitus position.
– A pillow is placed under
the HEAD to keep it in the
same plane as the spine.
– SHOULDERS and HIPS are
positioned. perpendicular
with the table.
– LOWER BACK should be
arched toward practitioner.
48. Structures crossed
a. Ligament Flavum
b. Interspinal ligaments
c. Supraspinal ligament
49. Back should be
carefully prepared
and draped
Find the L4 spinous process
at the level of iliac crests
Palpate a suitable interspace
distal to this level.
Infiltrate 2% Lidocaine
subcutaneously
A field block
Identify the two spinal
processes, penetrate the skin
and slowly advance the tip of
the needle at about 10º
cephalad
50. Measure the opening pressure
• Normal opening pressure ranges from 10 to 100 mm H2O in
young children and 60 to 200 mm H2O after eight years of age
CSF volume of 1ml obtained in 3 tubes.
• Neonate, 2ml in total can be safely removed.
• Older child 3 to 6 ml can be sampled (child’s size)
• bacteriology: Gram stain, culture and
TUBE 1 • sensitivity, acid-fast bacilli, fungal cultures and
stains
• biochemistry: glucose, protein, and
TUBE 2 • electrophoresis
TUBE 3 • Hematology: cell count with differential
• SPECIAL STUDIES :VDRL(neurosyphilis),
Tube 4 • India ink (Cryptococcus neoformans).
51. Normal values
TEST RANGE
Pressure: 70 - 180 mm H20
Appearance: clear, colourless
CSF total protein: 15 - 60 mg/100 mL
Gamma globulin: 3 - 12% of the total protein
CSF glucose 50 - 80 mg/100 mL (or greater than 2/3 of blood sugar
level)
CSF cell count: 0 - 5 white blood cells (all mononuclear), and no RBC
Chloride: 110 - 125 mEq/L
52. • complete subarachnoid blockage, leakage of spinal
Decreased
CSF pressure
fluid, severe dehydration, circulatory collapse.
• CHF, cerebral edema, subarachnoid hemorrhage,
Increased CSF meningeal inflammation, meningitis, hydrocephalus,
pressure or pseudotumor cerebri.
• Low glucose -infections; lymphomas; leukemia; meningoencephalitic mumps; or
hypoglycemia.
Glucose • level of less than 30% + low CSF lactate levels = CSF glucose transporter deficiency
also known as DE VIVO DISEASE.
• (monocytes can be normal) the presence of granulocytes is always an abnormal finding.
• A large number of granulocytes often heralds bacterial meningitis. White cells can also indicate reaction
to repeated lumbar punctures, reactions to prior injections of medicines or dyes, central nervous system
cells hemorrhage, leukemia, recent epileptic seizure, or a metastatic tumor.
•ERYTHROPHAGOCYTOSIS signifies haemorrhage into the CSF that preceded
the lumbar puncture. Therefore, when erythrocytes are detected in the CSF
blood sample, intracranial haemorrhage and haemorrhagic herpetic encephalitis.
53. TESTS INFERENCE
Increased levels hepatic encephalopathies, Reye's syndrome, hepatic coma, cirrhosis and
of glutamine hypercapnia.
Increased levels cancer of the CNS, multiple sclerosis, heritable mitochondrial disease,
of lactate low blood pressure, respiratory alkalosis, idiopathic seizures, traumatic
• CSF can be sent to the microbiology lab for
brain injury, cerebral ischemia, brain abscess, hydrocephalus, hypocapnia
or bacterial meningitis.
various types of smears and cultures to diagnose
lactate distinguish meningitides of bacterial origin, which are often associated
infections. high levels of the enzyme, from those of viral origin in which the
dehydrogenase with
• Polymerase chain reaction (PCR) has been a great
enzyme is low or absent.
Changes in total pathologically increased permeability of the blood-cerebrospinal fluid
advancebarrier, obstructions of CSF circulation, meningitis,neurosyphilis,
protein in the diagnosis of some types of
meningitis. abscesses,high sensitivity and specificity
brain It has subarachnoid hemorrhage, polio, collagen disease
or Guillain-Barré syndrome, leakage of CSF, increases in intracranial
for many infections of theVery high is fast, andmay indicate
pressure or hyperthyroidism. CNS, levels of protein can be
done with smallmeningitis or spinal block. Even though
tuberculous volumes of CSF.
rate
testing is expensive, disorders suchof Devic. sclerosis, transverse
IgG synthetic elevated in immune it saves cost of
myelitis, and neuromyelitis optica
as multiple
hospitalization.
Ab-mediated common bacterial pathogens, treponemal titers (neurosyphilis) and Lyme
tests for CSF disease, Coccidioides antibody
India ink test Cryptococcus neoformans, but the cryptococcal antigen (CrAg) test has a
higher sensitivity.
57. CONTRAINDICATIONS :
• Coagulation factor deficiencies
HEMORRHAGIC (hemophilia)
DISORDERS • DIC
• Concomitant use of Anticoagulants.
• Infection or
SKIN
• Recent Radiation
BONE • Osteomyelitis
DISORDERS • Osteogenesis imperfecta.
58.
59. CONSENT
POSITION
STERILIZE
LOCAL
ANESTHESIA
INCISION
NEEDLE IN
MARROW
ASPIRATE
SAMPLE
60. PROCEDURE :
• Obtain consent from a parent or guardian.
• If the posterior iliac crest is the chosen site, patients
are generally placed in the lateral decubitus position
or the prone position
• Sterilize the site with the sterile solution
• Place a sterile drape over the site, and administer
local anesthesia, letting it infiltrate the skin, soft
tissues, and periosteum.
• After local anesthesia has taken effect, make an
incision through which the bone marrow aspiration
needle can be introduced .
61.
62.
63. • If a guard is present, should be removed before
starting bone marrow aspiration, to ensure
adequate depth of penetration..
NEEDLE PERIOSTEUM
PENETRATED, 1 ml of
PERPENDICULAR Remove the unadulterated
presence of
to the bony advance the stylet and BONY
needle through BONE
prominence of ASPIRATE SPICULES.??
the cortex and MARROW
the iliac crest. rotate the needle
64. COMPLICATIONS :
• Hemorrhage
• Infection
• Persistent pain at the marrow site
• Retroperitoneal hematomas
• Trauma to neighboring structures and soft
tissues